Matthew Mata's UCLA Home Page
Office: MS 3355
Research Assistant
Research Interests: Numerical Analysis, Fluid Dynamics, Scientific
Computing, Game Theory
Research Topic: Particle-Laden Thin Film Flow
Publications:
M. Jamshidian and M. Mata, "Advances in analysis of mean and covariance
structures when data are incomplete", in Handbook of Latent Variable and
Related Models, (S.Y. Lee, Ed.), Chapter 2, Pp. 22-33, Amsterdam:
Elsevier, 2007.
M. Jamshidian and M. Mata, "Post modeling sensitivity analysis to detect
the effect of missing data mechanisms", Multivariate Behavioral Research,
43, Pp. 432-452, 2008.
N. Grunewald, R. Levy, M. Mata, T. Ward, and A. Bertozzi, "Self-similarity
in particle-laden flows at constant volume", J. Eng. Math., 2009.
N. Murisic, J. Ho, V. Hu, P. Latterman, K. Lin, M. Mata, and A, Bertozzi,
"Particle-laden viscous thin-film flows on an incline: experiments
compared with an equilibrium theory". Submitted to Physica D.
M. Mata and A. Bertozzi, "A numerical scheme for particle-laden thin film
flow in 2-D". Submitted to Journal of Computational Physics.
PDF
Teaching Experience:
Teaching Assistant for:
Math 3A - Calculus for Life Sciences Students
Math 3B - Calculus for Life Sciences Students
Math 32B - Calculus of Several Variables
Math 33A - Linear Algebra and Applications
Math 33B - Differential Equations
Math 151A - Applied Numerical Methods
Curriculum
Vitae
Teaching Statement
Research Statement
UCLA Math Home Page
matthewmata at math dot ucla
dot edu